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Temperature switches are used in signalizing, monitoring and controlling of heating, and cooling circuits in machines, compressors and engines.

The model S5100 is an adjustable swich. At adjustable bimetal temperature switches the switching point can be adjusted in fixed temperature steps. At the preset temperature level the bimetal element is switching. The monitored circuit is opened or closed. After reaching a preset safe temperature range the starting position is taken by the temperature switch.

Temperature switches are used in signalizing, monitoring and controlling of heating, and cooling circuits in machines, compressors and engines.

At fixed bimetal temperature switches, the case transports the temperature to the bimetal-element. At the preset temperature level the bimetal element is switching. The monitored circuit is opened or closed. After reaching a preset safe temperature range the starting position is taken by the temperature switch.

At adjustable bimetal temperature switches the switching point can be adjusted in fixed temperature steps.

Temperature switches are used in signalizing, monitoring and controlling of heating, and cooling circuits in machines, compressors and engines.

At fixed bimetal temperature switches, the case transports the temperature to the bimetal-element. At the preset temperature level the bimetal element is switching. The monitored circuit is opened or closed. After reaching a preset safe temperature range the starting position is taken by the temperature switch.

At adjustable bimetal temperature switches the switching point can be adjusted in fixed temperature steps.

Temperature switches are used in signalizing, monitoring and controlling of heating, and cooling circuits in machines, compressors and engines.

At fixed bimetal temperature switches, the case transports the temperature to the bimetal-element. At the preset temperature level the bimetal element is switching. The monitored circuit is opened or closed. After reaching a preset safe temperature range the starting position is taken by the temperature switch.

At adjustable bimetal temperature switches the switching point can be adjusted in fixed temperature steps.

The new temperature switch S6300 with integrated power relay is used if you need to charge more than 10A in reference on temperature. With this temperature switch it is not necessary anymore to wire up an additional relay. This benefit allows you to reduce costs and time during the installation and save place in your process. 

The case leads the temperature to the bimetal-element. At the preset temperature level the bimetal element activates the power relay and the monitored circuit will be closed. After reaching the reset point the switching element recapture the starting position again.

These temperature switches are designed for use in rough industrial environment. Due to the used bimetallic disc technology and a special build-up of the switches, they are suitable for applications with high vibrations.

There are standard models available with plug connector acc. to DIN EN 175301-803, in brass as well as in stainless steel. The certain electrical connections allow a quick installation of the switch. The ingress protection corresponds up to IP66/67, when the plugs are connected.

Negative overpressure can be converted to electrical signals by virtue of vacuum pressure switches. The tecsis vacuum switches are designed for rough vacuum applications (technical vacuum). They are available with NO, NC or SPDT contacts and a wide range of materials and process connections. The adjustment range of the tecsis vacuum pressure switch is -0,85 bar ... +1 bar

The mechanical vacuum switch S4415 with a SPDT switching output converts vacuums into an electrical switching signal. The switch operates in an extremely precise way and is characterised by its simple and robust design.

Features : 

• Change - over contact
• Many thread variants
• Customer - specific electrical connectionsO
• verload safety up to 20 bar

The mechanical vacuum switch S4412 is used in areas in which an electrical signal is required that depends on a specified vacuum values.

Features : 

• Change - over contact
• Many thread variants
• Adjustable hysteresis
• Overload safety up to 20 bar

Mechanical vacuum switch for applications with high demand on accuracy and loadability. The setpoint adjustment remains stable even for several years.

Features : 

• Repeatability 2%Low hysteresis
• Simple switching point adjustment
• Various process connections

dpstar immersion heaters are designed primarily for direct immersion in liquids such as water, oils, solvents and process solutions, molten materials as well as air and gases. By generating all the heat within the liquid or process, these heaters are virtually 100 percent energy efficient. These versatile heaters can also be formed and shaped into various geometries for radiant heating and contact surface heating applications.

SUPERIOR CHEMICAL RESISTANCE: Inert to most aqueous acid, alkaline, anodizing and pickling solutions up to 212°F (100°C).
RUGGED CONSTRUCTION: Heavy wall fluoropolymer (PTFE) covered stainless steel element reduces permeation and eliminates the need for gas purged systems. Guaranteed 100% pinhole free.
OUTSTANDING PERFORMANCE: Low watt density design (10 watts/square inch, 1.5 w/cm2) for long service life.
CORROSION RESISTANT HEAD: Vapor resistant, flame retardant polypropylene terminal enclosure with 3-foot (.9m) flexible PVC liquid tight conduit.
SAFETY FEATURES:

• Grounded internal metal element.
• Thermal protector built in. Replaceable P1 protector standard for solutions up to 180°F (82°C).
• Non-floating construction

CERTIFICATIONS: cULus (1-6kW) and CE (except 600 volts).SIZES: 500 watts to 9,000 watts.
VOLTAGES: 120 to 600 volts. Single phase only.